void Shader::setUniform(const std::string & uniformName, GLsizei count, float * value)
{
if (m_uniforms_locations.count(uniformName))
{
glProgramUniform1fv(m_program_id, m_uniforms_locations[uniformName], count, value);
}
else
{
if (getUniformLocation(uniformName))
{
glProgramUniform1fv(m_program_id, m_uniforms_locations[uniformName], count, value);
}
}
}
static void shader_setval_data(shader_t shader, sparam_t param,
const void *val, int count)
{
if (!matching_shader(shader, param))
return;
if (param->type == SHADER_PARAM_BOOL ||
param->type == SHADER_PARAM_INT) {
glProgramUniform1iv(shader->program, param->param, count, val);
gl_success("glProgramUniform1iv");
} else if (param->type == SHADER_PARAM_FLOAT) {
glProgramUniform1fv(shader->program, param->param, count, val);
gl_success("glProgramUniform1fv");
} else if (param->type == SHADER_PARAM_VEC2) {
glProgramUniform2fv(shader->program, param->param, count, val);
gl_success("glProgramUniform2fv");
} else if (param->type == SHADER_PARAM_VEC3) {
glProgramUniform3fv(shader->program, param->param, count, val);
gl_success("glProgramUniform3fv");
} else if (param->type == SHADER_PARAM_VEC4) {
glProgramUniform4fv(shader->program, param->param, count, val);
gl_success("glProgramUniform4fv");
} else if (param->type == SHADER_PARAM_MATRIX4X4) {
glProgramUniformMatrix4fv(shader->program, param->param,
count, false, val);
gl_success("glProgramUniformMatrix4fv");
}
}
void GLSLSeparableProgram::updatePassIterationUniforms(GpuProgramParametersSharedPtr params)
{
if (params->hasPassIterationNumber())
{
size_t index = params->getPassIterationNumberIndex();
GLUniformReferenceIterator currentUniform = mGLUniformReferences.begin();
GLUniformReferenceIterator endUniform = mGLUniformReferences.end();
// Need to find the uniform that matches the multi pass entry
for (;currentUniform != endUniform; ++currentUniform)
{
// Get the index in the parameter real list
if (index == currentUniform->mConstantDef->physicalIndex)
{
GLuint progID = 0;
if (mVertexShader && currentUniform->mSourceProgType == GPT_VERTEX_PROGRAM)
{
progID = mVertexShader->getGLProgramHandle();
}
if (mFragmentShader && currentUniform->mSourceProgType == GPT_FRAGMENT_PROGRAM)
{
progID = mFragmentShader->getGLProgramHandle();
}
if (mGeometryShader && currentUniform->mSourceProgType == GPT_GEOMETRY_PROGRAM)
{
progID = mGeometryShader->getGLProgramHandle();
}
if (mDomainShader && currentUniform->mSourceProgType == GPT_DOMAIN_PROGRAM)
{
progID = mDomainShader->getGLProgramHandle();
}
if (mHullShader && currentUniform->mSourceProgType == GPT_HULL_PROGRAM)
{
progID = mHullShader->getGLProgramHandle();
}
if (mComputeShader && currentUniform->mSourceProgType == GPT_COMPUTE_PROGRAM)
{
progID = mComputeShader->getGLProgramHandle();
}
OGRE_CHECK_GL_ERROR(glProgramUniform1fv(progID, currentUniform->mLocation, 1, params->getFloatPointer(index)));
// There will only be one multipass entry
return;
}
}
}
}
void Shader::SendFloatArray(int location, const float* values, unsigned int count) const
{
if (location == -1)
return;
if (glProgramUniform1fv)
glProgramUniform1fv(m_program, location, count, values);
else
{
OpenGL::BindProgram(m_program);
glUniform1fv(location, count, values);
}
}
void
program::set_uniform1fv(char const* varname, GLsizei count, GLfloat* value) const
{
GLint location = get_uniform_location(varname);
if (location >= 0)
{
#if GPUCAST_GL_DIRECT_STATE_ACCESS
glProgramUniform1fv(id_, location, count, value);
#else
glUniform1fv(location, count, value);
#endif
}
}
void GLSLSeparableProgram::updateUniforms(GpuProgramParametersSharedPtr params,
uint16 mask, GpuProgramType fromProgType)
{
// Iterate through uniform reference list and update uniform values
GLUniformReferenceIterator currentUniform = mGLUniformReferences.begin();
GLUniformReferenceIterator endUniform = mGLUniformReferences.end();
// determine if we need to transpose matrices when binding
int transpose = GL_TRUE;
if ((fromProgType == GPT_FRAGMENT_PROGRAM && mVertexShader && (!mVertexShader->getColumnMajorMatrices())) ||
(fromProgType == GPT_VERTEX_PROGRAM && mFragmentShader && (!mFragmentShader->getColumnMajorMatrices())) ||
(fromProgType == GPT_GEOMETRY_PROGRAM && mGeometryShader && (!mGeometryShader->getColumnMajorMatrices())) ||
(fromProgType == GPT_HULL_PROGRAM && mHullShader && (!mHullShader->getColumnMajorMatrices())) ||
(fromProgType == GPT_DOMAIN_PROGRAM && mDomainShader && (!mDomainShader->getColumnMajorMatrices())) ||
(fromProgType == GPT_COMPUTE_PROGRAM && mComputeShader && (!mComputeShader->getColumnMajorMatrices())))
{
transpose = GL_FALSE;
}
GLuint progID = 0;
if (fromProgType == GPT_VERTEX_PROGRAM)
{
progID = mVertexShader->getGLProgramHandle();
}
else if (fromProgType == GPT_FRAGMENT_PROGRAM)
{
progID = mFragmentShader->getGLProgramHandle();
}
else if (fromProgType == GPT_GEOMETRY_PROGRAM)
{
progID = mGeometryShader->getGLProgramHandle();
}
else if (fromProgType == GPT_HULL_PROGRAM)
{
progID = mHullShader->getGLProgramHandle();
}
else if (fromProgType == GPT_DOMAIN_PROGRAM)
{
progID = mDomainShader->getGLProgramHandle();
}
else if (fromProgType == GPT_COMPUTE_PROGRAM)
{
progID = mComputeShader->getGLProgramHandle();
}
for (; currentUniform != endUniform; ++currentUniform)
{
// Only pull values from buffer it's supposed to be in (vertex or fragment)
// This method will be called once per shader stage.
if (fromProgType == currentUniform->mSourceProgType)
{
const GpuConstantDefinition* def = currentUniform->mConstantDef;
if (def->variability & mask)
{
GLsizei glArraySize = (GLsizei)def->arraySize;
// Get the index in the parameter real list
switch (def->constType)
{
case GCT_FLOAT1:
OGRE_CHECK_GL_ERROR(glProgramUniform1fv(progID, currentUniform->mLocation, glArraySize,
params->getFloatPointer(def->physicalIndex)));
break;
case GCT_FLOAT2:
OGRE_CHECK_GL_ERROR(glProgramUniform2fv(progID, currentUniform->mLocation, glArraySize,
params->getFloatPointer(def->physicalIndex)));
break;
case GCT_FLOAT3:
OGRE_CHECK_GL_ERROR(glProgramUniform3fv(progID, currentUniform->mLocation, glArraySize,
params->getFloatPointer(def->physicalIndex)));
break;
case GCT_FLOAT4:
OGRE_CHECK_GL_ERROR(glProgramUniform4fv(progID, currentUniform->mLocation, glArraySize,
params->getFloatPointer(def->physicalIndex)));
break;
case GCT_MATRIX_2X2:
OGRE_CHECK_GL_ERROR(glProgramUniformMatrix2fv(progID, currentUniform->mLocation, glArraySize,
transpose, params->getFloatPointer(def->physicalIndex)));
break;
case GCT_MATRIX_3X3:
OGRE_CHECK_GL_ERROR(glProgramUniformMatrix3fv(progID, currentUniform->mLocation, glArraySize,
transpose, params->getFloatPointer(def->physicalIndex)));
break;
case GCT_MATRIX_4X4:
OGRE_CHECK_GL_ERROR(glProgramUniformMatrix4fv(progID, currentUniform->mLocation, glArraySize,
transpose, params->getFloatPointer(def->physicalIndex)));
break;
case GCT_INT1:
OGRE_CHECK_GL_ERROR(glProgramUniform1iv(progID, currentUniform->mLocation, glArraySize,
params->getIntPointer(def->physicalIndex)));
break;
case GCT_INT2:
OGRE_CHECK_GL_ERROR(glProgramUniform2iv(progID, currentUniform->mLocation, glArraySize,
params->getIntPointer(def->physicalIndex)));
break;
case GCT_INT3:
OGRE_CHECK_GL_ERROR(glProgramUniform3iv(progID, currentUniform->mLocation, glArraySize,
params->getIntPointer(def->physicalIndex)));
break;
case GCT_INT4:
OGRE_CHECK_GL_ERROR(glProgramUniform4iv(progID, currentUniform->mLocation, glArraySize,
params->getIntPointer(def->physicalIndex)));
break;
case GCT_MATRIX_2X3:
OGRE_CHECK_GL_ERROR(glProgramUniformMatrix2x3fv(progID, currentUniform->mLocation, glArraySize,
transpose, params->getFloatPointer(def->physicalIndex)));
break;
case GCT_MATRIX_2X4:
OGRE_CHECK_GL_ERROR(glProgramUniformMatrix2x4fv(progID, currentUniform->mLocation, glArraySize,
transpose, params->getFloatPointer(def->physicalIndex)));
break;
case GCT_MATRIX_3X2:
OGRE_CHECK_GL_ERROR(glProgramUniformMatrix3x2fv(progID, currentUniform->mLocation, glArraySize,
transpose, params->getFloatPointer(def->physicalIndex)));
break;
case GCT_MATRIX_3X4:
OGRE_CHECK_GL_ERROR(glProgramUniformMatrix3x4fv(progID, currentUniform->mLocation, glArraySize,
transpose, params->getFloatPointer(def->physicalIndex)));
break;
case GCT_MATRIX_4X2:
OGRE_CHECK_GL_ERROR(glProgramUniformMatrix4x2fv(progID, currentUniform->mLocation, glArraySize,
transpose, params->getFloatPointer(def->physicalIndex)));
break;
case GCT_MATRIX_4X3:
OGRE_CHECK_GL_ERROR(glProgramUniformMatrix4x3fv(progID, currentUniform->mLocation, glArraySize,
transpose, params->getFloatPointer(def->physicalIndex)));
break;
case GCT_DOUBLE1:
OGRE_CHECK_GL_ERROR(glProgramUniform1dv(progID, currentUniform->mLocation, glArraySize,
params->getDoublePointer(def->physicalIndex)));
break;
case GCT_DOUBLE2:
OGRE_CHECK_GL_ERROR(glProgramUniform2dv(progID, currentUniform->mLocation, glArraySize,
params->getDoublePointer(def->physicalIndex)));
break;
case GCT_DOUBLE3:
OGRE_CHECK_GL_ERROR(glProgramUniform3dv(progID, currentUniform->mLocation, glArraySize,
params->getDoublePointer(def->physicalIndex)));
break;
case GCT_DOUBLE4:
OGRE_CHECK_GL_ERROR(glProgramUniform4dv(progID, currentUniform->mLocation, glArraySize,
params->getDoublePointer(def->physicalIndex)));
break;
case GCT_MATRIX_DOUBLE_2X2:
OGRE_CHECK_GL_ERROR(glProgramUniformMatrix2dv(progID, currentUniform->mLocation, glArraySize,
transpose, params->getDoublePointer(def->physicalIndex)));
break;
case GCT_MATRIX_DOUBLE_3X3:
OGRE_CHECK_GL_ERROR(glProgramUniformMatrix3dv(progID, currentUniform->mLocation, glArraySize,
transpose, params->getDoublePointer(def->physicalIndex)));
break;
case GCT_MATRIX_DOUBLE_4X4:
OGRE_CHECK_GL_ERROR(glProgramUniformMatrix4dv(progID, currentUniform->mLocation, glArraySize,
transpose, params->getDoublePointer(def->physicalIndex)));
break;
case GCT_MATRIX_DOUBLE_2X3:
OGRE_CHECK_GL_ERROR(glProgramUniformMatrix2x3dv(progID, currentUniform->mLocation, glArraySize,
transpose, params->getDoublePointer(def->physicalIndex)));
break;
case GCT_MATRIX_DOUBLE_2X4:
OGRE_CHECK_GL_ERROR(glProgramUniformMatrix2x4dv(progID, currentUniform->mLocation, glArraySize,
transpose, params->getDoublePointer(def->physicalIndex)));
break;
case GCT_MATRIX_DOUBLE_3X2:
OGRE_CHECK_GL_ERROR(glProgramUniformMatrix3x2dv(progID, currentUniform->mLocation, glArraySize,
transpose, params->getDoublePointer(def->physicalIndex)));
break;
case GCT_MATRIX_DOUBLE_3X4:
OGRE_CHECK_GL_ERROR(glProgramUniformMatrix3x4dv(progID, currentUniform->mLocation, glArraySize,
transpose, params->getDoublePointer(def->physicalIndex)));
break;
case GCT_MATRIX_DOUBLE_4X2:
OGRE_CHECK_GL_ERROR(glProgramUniformMatrix4x2dv(progID, currentUniform->mLocation, glArraySize,
transpose, params->getDoublePointer(def->physicalIndex)));
break;
case GCT_MATRIX_DOUBLE_4X3:
OGRE_CHECK_GL_ERROR(glProgramUniformMatrix4x3dv(progID, currentUniform->mLocation, glArraySize,
transpose, params->getDoublePointer(def->physicalIndex)));
break;
case GCT_UINT1:
case GCT_BOOL1:
OGRE_CHECK_GL_ERROR(glProgramUniform1uiv(progID, currentUniform->mLocation, glArraySize,
params->getUnsignedIntPointer(def->physicalIndex)));
break;
case GCT_UINT2:
case GCT_BOOL2:
OGRE_CHECK_GL_ERROR(glProgramUniform2uiv(progID, currentUniform->mLocation, glArraySize,
params->getUnsignedIntPointer(def->physicalIndex)));
break;
case GCT_UINT3:
case GCT_BOOL3:
OGRE_CHECK_GL_ERROR(glProgramUniform3uiv(progID, currentUniform->mLocation, glArraySize,
params->getUnsignedIntPointer(def->physicalIndex)));
break;
case GCT_UINT4:
case GCT_BOOL4:
OGRE_CHECK_GL_ERROR(glProgramUniform4uiv(progID, currentUniform->mLocation, glArraySize,
params->getUnsignedIntPointer(def->physicalIndex)));
break;
case GCT_SAMPLER1D:
case GCT_SAMPLER1DSHADOW:
case GCT_SAMPLER2D:
case GCT_SAMPLER2DSHADOW:
case GCT_SAMPLER2DARRAY:
case GCT_SAMPLER3D:
case GCT_SAMPLERCUBE:
case GCT_SAMPLERRECT:
// Samplers handled like 1-element ints
OGRE_CHECK_GL_ERROR(glProgramUniform1iv(progID, currentUniform->mLocation, 1,
params->getIntPointer(def->physicalIndex)));
break;
case GCT_UNKNOWN:
case GCT_SUBROUTINE:
break;
} // End switch
} // Variability & mask
} // fromProgType == currentUniform->mSourceProgType
} // End for
}
JNIEXPORT void JNICALL Java_org_lwjgl_opengl_GL41_nglProgramUniform1fv(JNIEnv *env, jclass clazz, jint program, jint location, jint count, jlong value, jlong function_pointer) {
const GLfloat *value_address = (const GLfloat *)(intptr_t)value;
glProgramUniform1fvPROC glProgramUniform1fv = (glProgramUniform1fvPROC)((intptr_t)function_pointer);
glProgramUniform1fv(program, location, count, value_address);
}
void
VSShaderLib::setUniform(std::string name, void *value) {
myUniforms u = pUniforms[name];
switch (u.type) {
// Floats
case GL_FLOAT:
glProgramUniform1fv(pProgram, u.location, u.size, (const GLfloat *)value);
break;
case GL_FLOAT_VEC2:
glProgramUniform2fv(pProgram, u.location, u.size, (const GLfloat *)value);
break;
case GL_FLOAT_VEC3:
glProgramUniform3fv(pProgram, u.location, u.size, (const GLfloat *)value);
break;
case GL_FLOAT_VEC4:
glProgramUniform4fv(pProgram, u.location, u.size, (const GLfloat *)value);
break;
#ifndef __ANDROID_API__
// Doubles
case GL_DOUBLE:
glProgramUniform1dv(pProgram, u.location, u.size, (const GLdouble *)value);
break;
case GL_DOUBLE_VEC2:
glProgramUniform2dv(pProgram, u.location, u.size, (const GLdouble *)value);
break;
case GL_DOUBLE_VEC3:
glProgramUniform3dv(pProgram, u.location, u.size, (const GLdouble *)value);
break;
case GL_DOUBLE_VEC4:
glProgramUniform4dv(pProgram, u.location, u.size, (const GLdouble *)value);
break;
#endif
// Samplers, Ints and Bools
#ifndef __ANDROID_API__
case GL_IMAGE_1D :
case GL_IMAGE_2D_RECT :
case GL_IMAGE_BUFFER :
case GL_IMAGE_1D_ARRAY :
case GL_IMAGE_CUBE_MAP_ARRAY :
case GL_IMAGE_2D_MULTISAMPLE :
case GL_IMAGE_2D_MULTISAMPLE_ARRAY :
case GL_INT_IMAGE_1D :
case GL_INT_IMAGE_2D_RECT :
case GL_INT_IMAGE_BUFFER :
case GL_INT_IMAGE_1D_ARRAY :
case GL_INT_IMAGE_CUBE_MAP_ARRAY :
case GL_INT_IMAGE_2D_MULTISAMPLE :
case GL_INT_IMAGE_2D_MULTISAMPLE_ARRAY :
case GL_UNSIGNED_INT_IMAGE_1D :
case GL_UNSIGNED_INT_IMAGE_2D_RECT :
case GL_UNSIGNED_INT_IMAGE_BUFFER :
case GL_UNSIGNED_INT_IMAGE_1D_ARRAY :
case GL_UNSIGNED_INT_IMAGE_CUBE_MAP_ARRAY :
case GL_UNSIGNED_INT_IMAGE_2D_MULTISAMPLE :
case GL_UNSIGNED_INT_IMAGE_2D_MULTISAMPLE_ARRAY :
#endif
case GL_IMAGE_2D :
case GL_IMAGE_3D :
case GL_IMAGE_CUBE :
case GL_IMAGE_2D_ARRAY :
case GL_INT_IMAGE_2D :
case GL_INT_IMAGE_3D :
case GL_INT_IMAGE_CUBE :
case GL_INT_IMAGE_2D_ARRAY :
case GL_UNSIGNED_INT_IMAGE_2D :
case GL_UNSIGNED_INT_IMAGE_3D :
case GL_UNSIGNED_INT_IMAGE_CUBE :
case GL_UNSIGNED_INT_IMAGE_2D_ARRAY :
#ifndef __ANDROID_API__
case GL_SAMPLER_1D:
case GL_SAMPLER_1D_SHADOW:
case GL_SAMPLER_1D_ARRAY:
case GL_SAMPLER_1D_ARRAY_SHADOW:
case GL_SAMPLER_2D_MULTISAMPLE_ARRAY:
case GL_SAMPLER_BUFFER:
case GL_SAMPLER_2D_RECT:
case GL_SAMPLER_2D_RECT_SHADOW:
case GL_INT_SAMPLER_1D:
case GL_INT_SAMPLER_1D_ARRAY:
case GL_INT_SAMPLER_2D_MULTISAMPLE_ARRAY:
case GL_INT_SAMPLER_BUFFER:
case GL_INT_SAMPLER_2D_RECT:
case GL_UNSIGNED_INT_SAMPLER_1D:
case GL_UNSIGNED_INT_SAMPLER_1D_ARRAY:
case GL_UNSIGNED_INT_SAMPLER_2D_MULTISAMPLE_ARRAY:
case GL_UNSIGNED_INT_SAMPLER_BUFFER:
case GL_UNSIGNED_INT_SAMPLER_2D_RECT:
#endif
case GL_SAMPLER_2D:
case GL_SAMPLER_3D:
case GL_SAMPLER_CUBE:
case GL_SAMPLER_2D_SHADOW:
case GL_SAMPLER_2D_ARRAY:
case GL_SAMPLER_2D_ARRAY_SHADOW:
case GL_SAMPLER_2D_MULTISAMPLE:
case GL_SAMPLER_CUBE_SHADOW:
case GL_INT_SAMPLER_2D:
case GL_INT_SAMPLER_3D:
case GL_INT_SAMPLER_CUBE:
case GL_INT_SAMPLER_2D_ARRAY:
case GL_INT_SAMPLER_2D_MULTISAMPLE:
case GL_UNSIGNED_INT_SAMPLER_2D:
case GL_UNSIGNED_INT_SAMPLER_3D:
case GL_UNSIGNED_INT_SAMPLER_CUBE:
case GL_UNSIGNED_INT_SAMPLER_2D_ARRAY:
case GL_UNSIGNED_INT_SAMPLER_2D_MULTISAMPLE:
case GL_BOOL:
case GL_INT :
glProgramUniform1iv(pProgram, u.location, u.size, (const GLint *)value);
break;
case GL_BOOL_VEC2:
case GL_INT_VEC2:
glProgramUniform2iv(pProgram, u.location, u.size, (const GLint *)value);
break;
case GL_BOOL_VEC3:
case GL_INT_VEC3:
glProgramUniform3iv(pProgram, u.location, u.size, (const GLint *)value);
break;
case GL_BOOL_VEC4:
case GL_INT_VEC4:
glProgramUniform4iv(pProgram, u.location, u.size, (const GLint *)value);
break;
// Unsigned ints
case GL_UNSIGNED_INT:
glProgramUniform1uiv(pProgram, u.location, u.size, (const GLuint *)value);
break;
case GL_UNSIGNED_INT_VEC2:
glProgramUniform2uiv(pProgram, u.location, u.size, (const GLuint *)value);
break;
case GL_UNSIGNED_INT_VEC3:
glProgramUniform3uiv(pProgram, u.location, u.size, (const GLuint *)value);
break;
case GL_UNSIGNED_INT_VEC4:
glProgramUniform4uiv(pProgram, u.location, u.size, (const GLuint *)value);
break;
// Float Matrices
case GL_FLOAT_MAT2:
glProgramUniformMatrix2fv(pProgram, u.location, u.size, GL_FALSE, (const GLfloat *)value);
break;
case GL_FLOAT_MAT3:
glProgramUniformMatrix3fv(pProgram, u.location, u.size, GL_FALSE, (const GLfloat *)value);
break;
case GL_FLOAT_MAT4:
glProgramUniformMatrix4fv(pProgram, u.location, u.size, GL_FALSE, (const GLfloat *)value);
break;
case GL_FLOAT_MAT2x3:
glProgramUniformMatrix2x3fv(pProgram, u.location, u.size, GL_FALSE, (const GLfloat *)value);
break;
case GL_FLOAT_MAT2x4:
glProgramUniformMatrix2x4fv(pProgram, u.location, u.size, GL_FALSE, (const GLfloat *)value);
break;
case GL_FLOAT_MAT3x2:
glProgramUniformMatrix3x2fv(pProgram, u.location, u.size, GL_FALSE, (const GLfloat *)value);
break;
case GL_FLOAT_MAT3x4:
glProgramUniformMatrix3x4fv(pProgram, u.location, u.size, GL_FALSE, (const GLfloat *)value);
break;
case GL_FLOAT_MAT4x2:
glProgramUniformMatrix4x2fv(pProgram, u.location, u.size, GL_FALSE, (const GLfloat *)value);
break;
case GL_FLOAT_MAT4x3:
glProgramUniformMatrix4x3fv(pProgram, u.location, u.size, GL_FALSE, (const GLfloat *)value);
break;
#ifndef __ANDROID_API__
// Double Matrices
case GL_DOUBLE_MAT2:
glProgramUniformMatrix2dv(pProgram, u.location, u.size, false, (const GLdouble *)value);
break;
case GL_DOUBLE_MAT3:
glProgramUniformMatrix3dv(pProgram, u.location, u.size, false, (const GLdouble *)value);
break;
case GL_DOUBLE_MAT4:
glProgramUniformMatrix4dv(pProgram, u.location, u.size, false, (const GLdouble *)value);
break;
case GL_DOUBLE_MAT2x3:
glProgramUniformMatrix2x3dv(pProgram, u.location, u.size, false, (const GLdouble *)value);
break;
case GL_DOUBLE_MAT2x4:
glProgramUniformMatrix2x4dv(pProgram, u.location, u.size, false, (const GLdouble *)value);
break;
case GL_DOUBLE_MAT3x2:
glProgramUniformMatrix3x2dv(pProgram, u.location, u.size, false, (const GLdouble *)value);
break;
case GL_DOUBLE_MAT3x4:
glProgramUniformMatrix3x4dv(pProgram, u.location, u.size, false, (const GLdouble *)value);
break;
case GL_DOUBLE_MAT4x2:
glProgramUniformMatrix4x2dv(pProgram, u.location, u.size, false, (const GLdouble *)value);
break;
case GL_DOUBLE_MAT4x3:
glProgramUniformMatrix4x3dv(pProgram, u.location, u.size, false, (const GLdouble *)value);
break;
#endif
}
}
void UniformImplementation_SeparateShaderObjectsARB::set(const Program * program, const GLint location, const std::vector<float> & value) const
{
glProgramUniform1fv(program->id(), location, static_cast<GLint>(value.size()), value.data());
}
static bool
test_float(const char *version_string)
{
GLint loc;
bool pass = true;
float values[4];
float got[ARRAY_SIZE(values)];
GLuint prog;
static const char subtest_name[] = "float scalar and vectors";
const char *const shader_strings[] = {
version_string,
float_code,
common_body
};
BUILD_SHADER(true);
/* Try float
*/
loc = glGetUniformLocation(prog, "v1");
random_floats(values, ARRAY_SIZE(values));
glProgramUniform1f(prog, loc,
values[0]);
pass = piglit_check_gl_error(0) && pass;
glGetUniformfv(prog, loc, got);
pass = piglit_check_gl_error(0) && pass;
pass = check_float_values(values, got, 1) && pass;
random_floats(values, ARRAY_SIZE(values));
glProgramUniform1fv(prog, loc, 1, values);
pass = piglit_check_gl_error(0) && pass;
glGetUniformfv(prog, loc, got);
pass = piglit_check_gl_error(0) && pass;
pass = check_float_values(values, got, 1) && pass;
/* Try vec2
*/
loc = glGetUniformLocation(prog, "v2");
random_floats(values, ARRAY_SIZE(values));
glProgramUniform2f(prog, loc,
values[0], values[1]);
pass = piglit_check_gl_error(0) && pass;
glGetUniformfv(prog, loc, got);
pass = piglit_check_gl_error(0) && pass;
pass = check_float_values(values, got, 2) && pass;
random_floats(values, ARRAY_SIZE(values));
glProgramUniform2fv(prog, loc, 1, values);
pass = piglit_check_gl_error(0) && pass;
glGetUniformfv(prog, loc, got);
pass = piglit_check_gl_error(0) && pass;
pass = check_float_values(values, got, 2) && pass;
/* Try vec3
*/
loc = glGetUniformLocation(prog, "v3");
random_floats(values, ARRAY_SIZE(values));
glProgramUniform3f(prog, loc,
values[0], values[1], values[2]);
pass = piglit_check_gl_error(0) && pass;
glGetUniformfv(prog, loc, got);
pass = piglit_check_gl_error(0) && pass;
pass = check_float_values(values, got, 3) && pass;
random_floats(values, ARRAY_SIZE(values));
glProgramUniform3fv(prog, loc, 1, values);
pass = piglit_check_gl_error(0) && pass;
glGetUniformfv(prog, loc, got);
pass = piglit_check_gl_error(0) && pass;
pass = check_float_values(values, got, 3) && pass;
/* Try vec4
*/
loc = glGetUniformLocation(prog, "v4");
random_floats(values, ARRAY_SIZE(values));
glProgramUniform4f(prog, loc,
values[0], values[1], values[2], values[3]);
pass = piglit_check_gl_error(0) && pass;
glGetUniformfv(prog, loc, got);
pass = piglit_check_gl_error(0) && pass;
pass = check_float_values(values, got, 4) && pass;
random_floats(values, ARRAY_SIZE(values));
glProgramUniform4fv(prog, loc, 1, values);
pass = piglit_check_gl_error(0) && pass;
glGetUniformfv(prog, loc, got);
pass = piglit_check_gl_error(0) && pass;
pass = check_float_values(values, got, 4) && pass;
piglit_report_subtest_result(pass ? PIGLIT_PASS : PIGLIT_FAIL,
subtest_name);
glDeleteProgram(prog);
return pass;
}
